Slideshow: Architects Make Curves With Carbon Composites

Along with Shanghai and Hong Kong, Dubai is one of the world's cities where some highly unusual buildings are being designed and built. Many of these have curved shapes that are difficult or impossible to realize in heavy building materials like concrete, steel, and glass. Composites, which engineers are using to build spacecraft, seawalls, and car wheels, are now helping architects to make curved and freeform shapes in large buildings in the Middle East.

Affan Innovative Structures, based in Dubai in the United Arab Emirates (UAE), has combined a carbon fiber with Dow Chemical's Voraforce TF epoxy infusion systems. The company is using the composite material to build non-load-bearing structures in projects such as the Yas Mall in Abu Dhabi, UAE, and the Sidra Hospital in Qatar, which are both under construction.

Click on the image below to see some of the buildings that use the new composite.

Composites are helping architects to make highly unusual curved and freeform shapes in large buildings in the Middle East, such as the Sidra Hospital under construction in Qatar on the Arabian peninsula. Roofing panels up to 15m to 25m (49 ft to 82 ft) long have been made with the material. (Source: Affan Innovative Structures)

Amer Affan, the company's founder and managing partner, told us the curved architectural panels created using Dow toughened epoxy technology have many advantages compared to steel, the conventional material. The composite reduces weight by 85 percent and is 1.9 to 2 times the strength of steel, although its flexibility and toughness are lower than steel.

Strength and a light weight, along with the material's energy absorbance, are also important in the earthquake-prone Middle East to help reduce damage. This was especially advantageous for the design of the canopy foundations in the Sidra Hospital. The composite material was used in the pillars and roofing of the hospital's entrance area. The roofing panels made of the composite measure 15m to 25m (49 ft to 82 ft) long. None of these structures are load-bearing.

Affan told us:

Composites are important to allow architects freeform shapes in buildings. Using metal it would take a lot of effort both in time and money to achieve these architectural forms. The same characteristics of composites that have benefited automobiles, aircraft, and sports equipment are also proving beneficial to architects. In many ways, composites can be a dream solution for architects and I am convinced that they will decisively influence the future of construction.

Dow's Voraforce TF epoxy systems were specifically developed for the infusion process. The systems have very low viscosity and low exothermicity, resulting in optimal fiber wetting and efficient processing. Low starting viscosity allows fast infusion, leading to short cycle times, and good fiber impregnation, while low exothermicity guarantees the composite's high final quality. For example, the infusion time for a part 25m x 3m (49 ft x 9.8 ft) made of the composite material was less than 20 minutes. "The total wetting of the fibers was clearly visible even in this relatively short time for such a large area of infusion," said Affan. "This is very efficient processing."

Affan Innovative Structures provides design, engineering, fabrication, and installation, focusing on construction projects that require a high degree of design and engineering in steel and glass. The company is actively constructing large-span roofs such as those in sport stadiums. In stadium design, the trend is to reduce the number of support columns, which can obstruct the spectators' view, and also to have roofs that can be partly opened, such as in year-round sports arenas, said Affan. Light, structurally strong composites have a technical advantage over traditional cladding or roofing materials in achieving those goals. Because the composite materials are molded, the shapes can be extremely accurate and have very high-quality surface finishes.

Constructing filigree three-dimensional structures using traditional materials such as steel and aluminum is also difficult: The effort required for bending and welding the material is huge, said Affan, "not to mention the effort of making the outer surface of the final product look good. Composites are not only strong and light, but can also be cast in three-dimensional form without any material straining, and with an excellent smooth outer surface."

Although the hospital and mall structures are not load-bearing, further development in composites may make it possible to utilize them as load-bearing elements, said Affan. "But will they be able to compete economically with traditional material such as steel or concrete? I am not so sure."

I agree, Cabe, and thanks for that link. What a perfect app! It reminds me of the one NASA plans on using to print roadways and landing pads as well as structures on the Moon:http://www.designnews.com/author.asp?section_id=1392&doc_id=250614 One thing that's so cool about these building-scale 3D printing machines is the fact that they're designed to use materials other than plastic, often traditional building materials like cement and brick. The possibilities are huge.

I could see 3D printing becoming the premier way to build structures. I mean... brick laying is a perfect example. An industry perfect for a huge printer, using individual bricks as the media. I read of a brick printer that would build streets, in the Netherlands. It's going to happen.

That is an understatement. I prefer the wineries on the actual peninsula. Traverse City proper is just.. pleasant. Perhaps someday, 3D printing could reproduce the old style architecture... Just a thought.

3D printed buildings are already being tried, as both you and I have covered: http://www.ubmfuturecities.com/author.asp?section_id=262&doc_id=523906 http://www.designnews.com/author.asp?section_id=1392&doc_id=250614 Meanwhile, composites are also being designed for 3D printing uses in aerospace: http://www.designnews.com/author.asp?section_id=1392&doc_id=248401 So--when will the two combine?

To me, "timeless" would be something that persists over several hundred (or even several thousand) years, not just a few decades. There are some women's fashions that would qualify such as long simple dresses. I agree about the unattractiveness of '50s pastels--they used to be called ice cream colors.

I was up in Traverse City Michigan, the wine areas. They had rustic buildings with plenty of wood for construction. Very quaint. They even had some modern steel warehouse wineries – they were pretty utilitarian – but pleasant. Returning to Chicago, I just saw how run-down it all looks. Rust is the city's color apparently. I suppose I should not have returned through Indiana's industrial area, the area may have tainted my view.

That is true. I suppose there is never a universal, timeless look. How come certain old looks are classics, and acceptable, and others not. I don't see many people going for the 1950's pastel color look. Maybe it was universally repulsive.

Many of the new adhesives we're featuring in this slideshow are for use in automotive and other transportation applications. The rest of these new products are for a wide variety of applications including aviation, aerospace, electrical motors, electronics, industrial, and semiconductors.

A Columbia University team working on molecular-scale nano-robots with moving parts has run into wear-and-tear issues. They've become the first team to observe in detail and quantify this process, and are devising coping strategies by observing how living cells prevent aging.

Many of the new materials on display at MD&M West were developed to be strong, tough replacements for metal parts in different kinds of medical equipment: IV poles, connectors for medical devices, medical device trays, and torque-applying instruments for orthopedic surgery. Others are made for close contact with patients.

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